Question
is #2 correct
What is the probability that the selected accident was attributed to unsafe conditions? What is the probability that the selected accident did not occur on the day shift? An insurance company offers four different deductible levels-none, low , medium ,and high-for its home owner's policyholders and three different levels-low, medium, and high-for its automobiles policyholders. The accompanying table gives proportions for the various categories of policyholders who have both types of insurance. For example, the proportion of individuals with both low homeowner's deductible and low auto deductible is .06 (6 percentage of all such individuals). Suppose an individual having both types of policies is randomly selected. What is the probability that the individual has a medium auto deductible and a high homeowner's deductible? What is the probability that the individual has a low auto deductible? A low homeowner's deductible? What is the probability that the individual is in the same category for both auto and homeowner's deductibles? Based on your answers in part (c), what is the probability that the two categories are different? What is the probability that the individual has at least one low deductible level? using the answer in part (e), what is the probability that neither deductible level is low? The route used by a certain motorist in commuting to work contains two intersections with traffic signals. The
Explanation / Answer
t = 43 weeks
seconds = ?
let us go step by step
43 weeks = 43*7 = 301 days
301 days = 301*24 = 7224 hours
7224 hours = 7224*60 = 433440 minutes
433440 minutes = 433440*60 = 26006400 seconds
now, change to Scientific notation
2.6*10^7 seconds
which is your answer... It is in fact correct!
